Transcriptomic gene profiles in an ex vivo model of erythropoiesis to unravel molecular pathomechanisms of Sickle Cell Disease

Abstract

Abstract We characterized the transcriptional profiles of erythroid cells differentiated from peripheral blood mononuclear cells (PBMCs) from peripheral blood collected from patients diagnosed with Sickle Cell Disease (SCD), which have been treated with Hydroxyurea (HU) in comparison to untreated SCD patients and healthy controls (HC) using bulk RNAseq. We identified 398 differentially expressed genes (DEGs) in SCD non-treated-derived erythroid cells and 65 DEGs in SCD HU-treated patient-derived erythroid cells compared to HC. We found biological processes such as oxidative phosphorylation pathway, proteasome, autophagy, natural killer cell (NK) cytotoxicity, adaptive immune response or inflammatory response to be significantly enriched in our patient study groups by using Gene Ontology (GO) and Kyoto Encyclopedia of Genes and Genomes (KEGG) analysis. Our findings collectively suggest different as well as common molecular signatures between our groups. We could validate 12 of our top DEGs in treated patients by qRT-PCR. We performed additional experiments to compare the mRNA levels of mutS homolog 5- Suppressor APC Domain Containing 1 (MSH5-SAPCD1), G protein subunit gamma 4 (GNG4), stabilin 1/ clever-1 (STAB1) and Fas Binding Factor 1 (FBF1) from the bone marrow cells and spleen tissue from the Berkely SCD mouse model to the expressions observed in the transcriptome.